THE EFFECT OF TOPOGRAPHIC FACTOR IN ATMOSPHERIC CORRECTION FOR HYPERSPECTRAL DATA

机译：地形因子在高光谱数据大气校正中的作用

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In this study, two MODTRAN-based software packages (FLAASH and ATCOR-4) were employed to conduct atmospheric correction on a hyperspectral dataset, collected by a Itres CASI-1500 in Southern Taiwan with a spectral range of 367 - 1047 nm and a spectral resolution of 9.6 nm. ATCOR-4 is capable of including topographic effect (such as slope and aspect) in atmospheric correction when a DEM or DSM is provided. The effect of topographic factor was demonstrated by comparing the results obtained from FLAASH and ATCOR-4 with in-situ measurements, using a PSR-1100 spectroradiometer, respectively. The preliminary results showed that ATCOR-4 produced the best result when a smoothed DSM is provided. However the processing time for obtaining such result in significantly longer than FLAASH.

机译：在这项研究中，使用了两个基于MODTRAN的软件包（FLAASH和ATCOR-4）对高光谱数据集进行大气校正，该数据集由台湾南部的Itres CASI-1500采集，光谱范围为367-1047 nm，分辨率为9.6 nm。提供DEM或DSM时，ATCOR-4能够在大气校正中包括地形影响（例如坡度和坡度）。通过分别使用PSR-1100分光辐射仪将FLAASH和ATCOR-4的结果与原位测量结果进行比较，证明了地形因子的影响。初步结果表明，当提供平滑的DSM时，ATCOR-4产生了最佳结果。但是，获得这种结果的处理时间比FLAASH长得多。

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《Asian conference on remote sensing;ACRS》|2013年|344-350|共7页
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Tzu-Min Hong; Kun-Jen Wu; Chi-Kuei Wang;
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Atmospheric correction; Hyperspectral image; Radiative transfer model;

机译：大气校正;高光谱图像;辐射传递模型;

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1. SIERRA: A new approach to atmospheric and topographic corrections for hyperspectral imagery [J] . Xavier Lenot, Veronique Achard, Laurent Poutier Remote Sensing of Environment: An Interdisciplinary Journal . 2009,第8期

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2. Automatic atmospheric correction for shortwave hyperspectral remote sensing data using a time-dependent deep neural network [J] . Sun Jian, Xu Fangcao, Cervone Guido, ISPRS Journal of Photogrammetry and Remote Sensing . 2021,第Apra期

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3. Comparison of two atmospheric correction methods for the classification of spaceborne urban hyperspectral data depending on the spatial resolution [J] . Roussel Guillaume, Weber Christiane, Briottet Xavier, International journal of remote sensing . 2018,第5a6期

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4. THE EFFECT OF TOPOGRAPHIC FACTOR IN ATMOSPHERIC CORRECTION FOR HYPERSPECTRAL DATA [C] . Tzu-Min Hong, Kun-Jen Wu, Chi-Kuei Wang Asian conference on remote sensingACRS . 2013

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5. Hyperspectral Observations for Atmospheric Remote Sensing: Instrumentation, Atmospheric Correction, and Spectral Unmixing [D] . Wright, Logan Ansel. 2018

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7. Analytical Correction Method for Atmospheric and Topographic Effects on Rugged Terrain Image Data [O] . Yoshiyuki KAWATA, Atsuhisa OHTANI, Takashi KUSAKA 1991

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8. New Method for Atmospheric Correction and Aerosol Optical Property Retrieval for VIS-SWIR Multi- and Hyperspectral Imaging Sensors: QUAC (QUick Atmospheric Correction) [R] . Bernstein, L. S. , Adler-Golden, S. M. , Sundberg, R. L. , 2005

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THE EFFECT OF TOPOGRAPHIC FACTOR IN ATMOSPHERIC CORRECTION FOR HYPERSPECTRAL DATA

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